CARACTÉRISATION DES PROPRIÉTÉS MÉCANIQUES, HYGROTHERMIQUES ... · Atelier de concertation...

Atelier de concertation TyCCAO

23 Juin 2017

Clermont-Ferrand, France

CARACTÉRISATION DES PROPRIÉTÉS MÉCANIQUES,

HYGROTHERMIQUES ET ACOUSTIQUES DE MATÉRIAUX À

BASE DE TYPHA AUSTRALIS ET D’ARGILE

e-mail: ibrahim.niang@univ-reims.fr

2

Matériaux

Typha Australis

Argile de Thicky

Formulation

Elaboration

Plan

Comportement au feu

Réaction au feuPropriétés physiques

Masse volumique apparente

Porosité

Imagerie

Propriétés mécaniques

Résistance en compression

Module apparent

Résistance en flexion

Cohésion

Contrainte de cisaillement

Propriétés hygrothermiques

Conductivité thermique

Chaleur spécifique

Capacité tampon hydrique

Perméabilité

Isotherme de sorption

Propriété acoustique

Absorption acoustique

3

Typha Australis

Matériaux

● An herbaceous, monocotyledonous plant up to

3.50 meters long;

● A stem surrounded by flat leaves 1 to 2 cm in

width;

● A 15 to 20 cm long brown spadix containing

between 20 000 And 700,000 seeds ;

● Internal porous structure.

(Etienne Samin,2014)

(Etienne Samin,2014)

Materials4

Typha Australis

CARAVAGGIO BIO 60

Transverse fraction of Typha:

55 kg / m3 +/- 1.5

Longitudinale fraction of Typha:

60 kg / m3 +/- 1.2

The standard norms [ASN 2014] harvesting, transport,

drying and storage of Typha australis:

● Manually ctting of Typha plants using a sickle at 20

cm above the water;

● Drying in the open air is carried out at the cutting site

between 7 and 10 days;

● packaging in bales and transported by sea.

Matériaux5

Binder: Clay soil from Thicky town (Senegal)

(Etienne Samin,2014) (Etienne Samin,2014)

[Riveros Olmos 2016] shows that the Thicky

soil it is a clayish one containing almost 62% of

very fine particles,

● Natural resource;

● Little processing;

● Technical process well known.

6

Liquidity limit [WL]Plasticitylimit [WP]

The plasticityindex [Ip]

50,15% 19,19% 31,03

Plasticity index Plasticity degree

0<IP <5 Non-plastic

5<IP <15 Moderately plastic

15<IP <40 Plastic

IP >40 Very plastic

Atterberg limits of Thicky soilClassification of the degree of plasticity as a

function of the plasticity index

MaterialsClay soil from Thicky town (Senegal)

The results (tab 1) [Riveros Olmos 2016] show that the Thicky has a

plasticity index between 15 and 40. According to the classification (tab 2),

it is considered a very plastic soil.

Plastic LiquidSolid

Materials7

Formulations

● The 1A and 2A formulation : The same volume ratio in

the Typha aggregate (80%);

● The 2B formulation: Typha aggregate volume ratio of

70%,

Formulations Raw materials Weight proportion (%)

1A

Aggregates: longitudinal cutting 33

Clay 66

Water 1

2A

Aggregates: cross cutting 28

Clay 70,5

Water 1,5

2B

Aggregates: cross cutting 15,5

Clay 81

Water 3,5

1A 2B2A

() (Etienne Samin,2016)

[Samin, 2017]

Formulation Masse volumique(kg.m-3) Standard deviation

1A 322.990 9.710

2A 304.281 1.271

2B 585.499 3.814

Materials8

Elaboration

(Etienne Samin,2016)

Mixing: Clay + Water + Typha

Molding+compaction

Drying

Propriétés physiques9

Imagerie

● Formulation 2A :62.0543

● Formulation 1A : 56.6060

● Formulation 2B : 52.0568

Propriétés physiques10

Imagerie

Propriétés Mécanique11

Compression, flexion , cisaillement

Propriétés Mécaniques12

Compression, flexion , cisaillement

The Typha-earth agromaterial can not be used as structural material due to its low compressive

performance

Propriétés Acoustiques13

Absorption acoustique

● Formulation 2A :62.0543

● Formulation 1A : 56.6060

● Formulation 2B : 52.0568

Propriétés Hygrothermiques 14

Conductivité thermique

● Formulation 1A -2A :0,0653-0,0690 W.m-1.K-1

● Formulation 2B : 0,10-0,11 W.m-1.K-1

Système de chauffage et de

refroidissement

Propriétés Hygrothermiques 15

Capacité tampon hydrique

The Moisture Buffering Value (g/m2.%.RH) is defined by:

𝑀𝐵𝑉 =Δm

A. (HRhigh − HRlow)

With Dm, the variation of the mass, A the section (m2), HRhigh and HRlow the high and

low relative humidity

Formulation MBV (g m-2 %RH-1) Ecart type (g m-2 %RH-1 )

1A 5,08 0,14

2A 3,71 0,11

2B 3,23 0,36

Propriétés Hygrothermiques 16

Isothermes de sorption

Comportement au feu 17

Réaction au feu (NF EN ISO 11925-2 2013)

During the test, the behaviour of the material is observed. It is necessary to check the following criteria:

● Presence of flame;

● Release of smoke;

● Presence of inflamed particles;

● Propagation of heat;

● Partial or total degradation of the sample.

● Formulation:

● Variation de la teneur en granulat de Typha;

● Comportement en fonction de l’humidité (mécanique, thermique et acoustique).

● Modélisation du comportement hygrothermique:

● Capacité de sorption;

● Couplage avec des systèmes ventilation hygrorèglable

● A l’échelle de la paroi, à l’échelle du bâtiment;

● Typologie de bâtiment.

18 Perpectives

19

Merci

(Arnaud Misse, 2016)